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71	From Neuroendocrinology to Neuroimmunomodulation – A Tribute to Prof. Dr. Samuel McCann Bornstein, Stefan R. January 2007 (has links) One of the leading experts in the field of Neuroendocrinology and Neuroimmunmodulation, Samuel Mac Donald McCann, known by all his friends as ‘Don’, passed away in 2007. This article pays tribute to his outstanding scientific contribution and a glimpse on his fascinating personality. A member of the National Academy of Sciences of the United States and pioneer in the field of neuroendocrine regulation, he identified numerous hormones and peptides and set the stage for basic concepts in physiology and clinical medicine. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. info:eu-repo/classification/ddc/610 ddc:610
72	Spatial Learning and Memory, Transcriptional and Proteomic Analysis of Growth Hormone Action in the Brain of bGH and GHA Mice Basu, Amrita January 2015 (has links) No description available. Behavioral Sciences Biology Biomedical Research Molecular Biology Neurosciences Neurobiology Growth hormone Brain Memory Learning Mice Acromegaly Dwarfism Neuroendocrinology
73	Efeitos do treinamento físico intenso e da restrição alimentar sobre a ação da leptina mediada pelo hormônio concentrador de melanina no eixo reprodutor de ratas. / Effects of intense physical training and food restriction on the action of leptin mediated by melanin concentrating hormone in the reproductive axis in female rats. Silva, Renata Juliana da 14 October 2011 (has links) Avaliamos o efeito do treinamento físico intenso e da restrição alimentar no eixo reprodutor e na expressão do RNAm do MCH em ratas fêmeas. Utilizamos ratas fêmeas sedentárias alimentadas (SA), sedentárias com restrição alimentar, treinadas alimentadas (TA) e treinadas com restrição alimentar. O grupo TR entrou em anestro a partir da quarta semana de experimento. Os grupos restritos apresentaram redução de peso corporal, ovários, úteros e tecido adiposo branco, comparados aos alimentados. Houve redução sérica de leptina nos grupos SR e TR. Os grupos TA, SR e TR apresentaram cistos ovarianos. A expressão do RNAm do ppMCH na área incerto-hipotalâmica (IHy) foi menor nos animais TR, SR e nos animais alimentados em proestro, e na área hipotalâmica lateral (LHA) foi maior nos animais em restrição alimentar e nos animais alimentados em proestro. Conclui-se que a leptina exerce forte influencia no eixo reprodutor feminino, tal ação parece ter envolvimento do MCH, sobretudo o proveniente da IHy, uma vez que o MCH da LHA tem relação com o estímulo a busca de alimento. / We evaluated the effect of intense physical training and food restriction on the reproductive axis and MCH mRNA expression in female rats. We used female rats fed sedentary (SF), food-restricted sedentary, trained fed (TF) and trained with food restriction. The group entered anestrus TR from the fourth week of the experiment. The restricted groups had reduced body weight, ovary, uterus and white adipose tissue, compared to the fed. There was a reduction of serum leptin in the SR and TR groups. The TF groups, SR and TR had ovarian cysts. The expression of mRNA ppMCH incerto-hypothalamic area (IHy) was lower in TR animals, SR and animals fed on proestrus, and the lateral hypothalamic area (LHA) were higher in animals on restricted food and animal feeding in proestrus. It is concluded that leptin exerts a strong influence on female reproductive axis, such action appears to have involvement of MCH, especially from the IHy, since the MCH of the LHA is related to the motivational behavior associated to the search for food. Animal estrous cycle Animal neuroendocrinology Ciclo estral animal Desnutrição Exercícios físico Hormônio concentrador de melanina Leptin Leptina Malnutrition Melanin-concentrating hormone Neuroendocrinologia de animal Physical exercise
74	An Atlas of catfish brain - Steindachneridion parahybae (Teleostei: Siluriformes): a detailed cytoarchitectonic study of the different brain areas and nuclei as a basis for further morphological and functional studies / Um Atlas do encéfalo do catfish - Steindachneridion parahybae (Teleostei: Siluriformes): um estudo citoarquitetônico detalhado das diferentes áreas e núcleos do cérebro, como base para futuros estudos morfológicos e funcionais Medrado, Andreone Teles 14 August 2015 (has links) In the present Master\'s Dissertation, a detailed cytoarchtectonic study of the brain of the juvenile catfish - Steindachneridion parahybae, has been performed. The animals used for this Atlas were juvenile specimens of one hundred days post-fertilization. The coronal (transverse) sections (5µm-thick) were obtained by using a rotary microtome, stained with cresyl-violet and examined under a photomicroscopy with the help of a digital system of analysis. Some criteria have been used to classify the different cell masses of the catfish brain: (i) characteristic size, shape and intensity of the staining from the perykarya; (ii) packing density and distribution pattern of the cell bodies; (iii) neuropil surrounding the cell groups and (iv) consistency of cell groups in both hemispheres and different brains of catfish. Thus, around one hundred and thirty nuclei have been described in the catfish brain, which are distributed in four main region that are from rostral to caudal: telencephalon, diencephalon, mesencephalon and rhombencephalon. Although we have observed important similarities between the brain of catfish and other teleosts, we have also noticed some differences in the characteristics and placement of several nuclei in relation to other teleosts, or even when compared to the brain of species of the same Order, the Siluriformes. Some of these differences could be related with the age of the animals studied here, but probably represent species-specific differences because the brain of adult catfish specimens has a great similarity in cytoarchitecture and overall organization compared to younger animals. The main outcome of this study has been the availability of a complete Atlas of the brain of catfish, which has been used to localize precisely the distribution of cells and fibers of the Gonadotropin-releasing hormone in the brain. This Atlas will also represent a valuable tool for future endocrine analyses, allowing the precise mapping of the different neurohormones in the brain of catfish, as well as for the study of neural connections among different brain areas / Esta Dissertação de Mestrado, apresenta-se estruturalmente como um Atlas, em que é apresentado um detalhado estudo citoarquitetônico do encéfalo de catfish- Steindachneridion parahybae. Para a realização deste, foram utilizados 7 juvenis de 100 dias após a eclosão, analisados por técnicas rotineiras de histologia, cujas secções coronais(transversais) - 5&um;m de espessura-, foram obtidas utilizando-se de um micrótomo rotativo, coradas com violeta de cresil e examinadas a partir de sistema digital de análise. Alguns critérios foram utilizados para classificar as diferentes massas de células do cérebro catfish, tais como: (i) o tamanho característico, forma e intensidade da coloração do pericário; (ii) padrão de densidade de agrupamento e distribuição dos corpos celulares; (iii) a presença de neurópilos ao redor dos desses agrupamentos celulares e (iv) a consistência/coerência destes agrupamentos em ambos os hemisférios dos diferentes encéfalos, então analisados. Dessa forma, são descritos aproximadamente130 massas celulares para o encéfalo de S. parahybae, as quais estão distribuídas em quatro principais regiões que, da parte rostral para caudal, são: telencéfalo, diencéfalo, mesencéfalo e rombencéfalo. Embora são observadas semelhanças entre o cérebro de S. parahybae e de outros teleósteos, nota-se, também, certas diferenças quanto às características e/ou localização das massas celulares em relação ao encéfalo de outros teleósteos, ou mesmo quando comparado com o cérebro de espécies da mesma ordem, Siluriformes. Algumas destas diferenças pode estar relacionada com a idade dos animais estudados, no entanto,também podem representar diferenças espécie-específicas, uma vez que o encéfalo adultos de S. parahybae apresentam grande similaridade citoarquitetônica, além da organização geral do encéfalo, previamente observadas em animais acima dos 100 dias após a eclosão. Portanto, como resultado deste estudo tem-se a disponibilidade de um Atlas completo do encéfalo de S. parahybae, o qual representa uma ferramenta valiosa para o estudo das conexões neurais entre diferentes áreas do encéfalo, bem como para futuras análises endócrinas, permitindo o mapeamento preciso de neuro-hormônios nesta espécie, como demonstrado ao longo deste estudo, para o hormônio liberador de gonadotropinas Brain Central nervous system Cérebro Fisiologia Histologia Histology Immunohistochemistry Imuno-histoquímica Neuroanatomia Neuroanatomy Neuroendocrinologia Neuroendocrinology Neurônios Neurons Physiology Sistema nervoso central Steindachneridion parahybae Steindachneridion parahybae
75	Efeitos do treinamento físico intenso e da restrição alimentar sobre a ação da leptina mediada pelo hormônio concentrador de melanina no eixo reprodutor de ratas. / Effects of intense physical training and food restriction on the action of leptin mediated by melanin concentrating hormone in the reproductive axis in female rats. Renata Juliana da Silva 14 October 2011 (has links) Avaliamos o efeito do treinamento físico intenso e da restrição alimentar no eixo reprodutor e na expressão do RNAm do MCH em ratas fêmeas. Utilizamos ratas fêmeas sedentárias alimentadas (SA), sedentárias com restrição alimentar, treinadas alimentadas (TA) e treinadas com restrição alimentar. O grupo TR entrou em anestro a partir da quarta semana de experimento. Os grupos restritos apresentaram redução de peso corporal, ovários, úteros e tecido adiposo branco, comparados aos alimentados. Houve redução sérica de leptina nos grupos SR e TR. Os grupos TA, SR e TR apresentaram cistos ovarianos. A expressão do RNAm do ppMCH na área incerto-hipotalâmica (IHy) foi menor nos animais TR, SR e nos animais alimentados em proestro, e na área hipotalâmica lateral (LHA) foi maior nos animais em restrição alimentar e nos animais alimentados em proestro. Conclui-se que a leptina exerce forte influencia no eixo reprodutor feminino, tal ação parece ter envolvimento do MCH, sobretudo o proveniente da IHy, uma vez que o MCH da LHA tem relação com o estímulo a busca de alimento. / We evaluated the effect of intense physical training and food restriction on the reproductive axis and MCH mRNA expression in female rats. We used female rats fed sedentary (SF), food-restricted sedentary, trained fed (TF) and trained with food restriction. The group entered anestrus TR from the fourth week of the experiment. The restricted groups had reduced body weight, ovary, uterus and white adipose tissue, compared to the fed. There was a reduction of serum leptin in the SR and TR groups. The TF groups, SR and TR had ovarian cysts. The expression of mRNA ppMCH incerto-hypothalamic area (IHy) was lower in TR animals, SR and animals fed on proestrus, and the lateral hypothalamic area (LHA) were higher in animals on restricted food and animal feeding in proestrus. It is concluded that leptin exerts a strong influence on female reproductive axis, such action appears to have involvement of MCH, especially from the IHy, since the MCH of the LHA is related to the motivational behavior associated to the search for food. Ciclo estral animal Desnutrição Exercícios físico Hormônio concentrador de melanina Leptina Neuroendocrinologia de animal Animal estrous cycle Animal neuroendocrinology Leptin Malnutrition Melanin-concentrating hormone Physical exercise
76	Circuiterie neuronale impliquée dans les effets génomiques et non-génomiques des strogènes sur l'expression du comportement sexuel mâle Taziaux, Mélanie 21 March 2008 (has links) Laromatase est un enzyme-clé qui catalyse la conversion de la testostérone en stradiol. Cette conversion constitue une étape limitante dans le contrôle du comportement sexuel mâle. Bien quencore partiellement incompris aujourdhui, différents mécanismes de contrôle de lactivité aromatasique ont été mis en évidence par de récentes études. Dune part, l'activité aromatasique du cerveau peut être modifiée par une action lente, génomique et synergique des androgènes et des strogènes agissant via leurs récepteurs intracellulaires spécifiques. Ce mécanisme relativement lent implique que la variation de la biodisponibilité en strogènes et, en dernière analyse, le comportement sexuel soient corrélés à des variations à long terme des taux plasmatiques de stéroïdes telles que les variations saisonnières ou développementales. Cet effet génomique des strogènes sur le comportement sexuel est aujourdhui communément accepté: lexpression du comportement sexuel consommatoire mâle ainsi quun des indices du comportement sexuel appétitif mâle (réponse apprise de proximité sociale) chez la caille sont strictement dépendants de laromatisation de la testostérone en stradiol. Dautre part, la production d'strogènes dans le cerveau peut être modifiée de façon rapide, non-génomique, par des processus qui impliquent des phosphorylations sous l'action de certains neurotransmetteurs tels que le glutamate et la dopamine. Lexistence dune telle régulation rapide de lactivité aromatasique, et donc de la production subséquente doestrogènes, est en adéquation avec les effets rapides des strogènes dans le cerveau rapportés par de nombreuses études au cours des 20 dernières années. Cette thèse a donc été consacrée à la caractérisation des effets génomiques et non-génomiques des strogènes dans le contrôle du comportement sexuel mâle et à lidentification des substrats neuroanatomiques qui sous-tendent ces deux types deffets dans le contrôle du comportement reproducteur. Dans ce cadre, notre travail sest articulé en trois parties distinctes mais fonctionnellement liées. Dans une première partie, nous avons dabord exploré plus avant le contrôle hormonal dun indice de la motivation sexuelle : les contractions rythmiques des muscles cloacaux (RCSM) en réponse à la vue dune femelle. Nous avons donc montré que lexpression des RCSM dépend de laromatisation de la testostérone en stradiol. Par la suite, nous avons démontré que les composantes appétitives et consommatoires du comportement sexuel mâle étaient contrôlées par des réseaux neuronaux en partie distincts mais incluant de façon proéminente laire préoptique médiane, et plus spécifiquement le noyau préoptique médian. La deuxième partie de cette thèse a été consacrée à lanalyse plus approfondie du contrôle hormonal dune réponse sexuelle conditionnée - les contractions rythmiques des sphincters cloacaux conditionnées (RCSM conditionnées) et des sites nerveux responsables de lactivation de cette réponse. Nous démontrons que les RCSM conditionnées dépendent également de laromatisation de la testostérone en strogènes, comme cela est le cas pour leur versant inné. Par la suite, nous avons montré que lexposition à un stimulus sexuel conditionné avant la copulation provoque une activité neuronale accrue dans des régions cérébrales jouant un rôle-clé dans le contrôle du comportement sexuel, laire préoptique médiane et la partie médiane noyau du lit de la strie terminale (BSTM). Finalement, dans une troisième partie, nous nous sommes attachés à létude de la modulation rapide du comportement sexuel mâle par les strogènes. Dans ce cadre, nous avons montré que la régulation positive et négative des concentrations cérébrales en strogènes affectent rapidement lexpression du comportement sexuel mâle chez une espèce aviaire (caille) et une espèce murine (souris). Ce dernier modèle nous a de plus permis de valider la spécificité neuroendocrinienne des effets comportementaux rapides observés. Neuroscience aromatase estradiol/oestradiol
77	Modulation of Hypothalamic-pituitary-Adrenal Axis Parameters by Teneurin C-terminal Associated Peptide (TCAP)-1 De Almeida, Reuben Ricardo Joaquim 21 November 2012 (has links) Teneurin C-terminal associated peptides (TCAP) are a family of bioactive peptides found on the terminal exon of the four teneurin genes. TCAP-1 is found within brain regions that modulate the activity of corticotropin-releasing factor (CRF), which is the principal neuropeptide regulator of the hypothalamic-pituitary-adrenal (HPA) axis. TCAP-1 has suppressive effects on CRF-induced anxiety behaviours in rats. However, previous studies determined that TCAP-1 does not act directly on the CRF receptors (CRFR). Thus, I postulate that TCAP-1 may act centrally to modify elements of the HPA axis. Using an immortalized mouse hippocampal cell line, I tested the hypothesis that TCAP acts either downstream of CRFR activation, or on the regulation of the glucocorticoid receptors (GCR), which modulate CRF actions. These studies indicate that TCAP-1 represents a novel peptide in the regulation of stress related systems, which acts independently of either CRF-, or glucocorticoid- mediated signal transduction and transcription. teneurin c-terminal associated peptides corticotropin-releasing factor glucocorticoid receptor mineralocorticoid receptor hippocampus neuroendocrinology hypothalamic-pituitary-adrenal axis stress 0317 0379 0307
78	A Novel Pathway for Enhanced Metabolic Capacities Underlies the Neuroprotective Actions of Teneurin C-Terminal Associated Peptide (TCAP)-1 Xu, Mei 27 November 2012 (has links) Teneurin C-terminal Associated Peptide (TCAP)-1 is postulated to play a critical role in cellular defense mechanisms as it is highly neuroprotective against alkalotic and hypoxic stress. Optimization of metabolic pathways is recognized as an essential survival tactic by alleviating energy deficits and meeting the demands to cope with the stressors. The aim of this research was to delineate the mechanism through which TCAP-1 confers protection. My findings show that TCAP-1 increases the overall expression of GLUT1 and enhances overall expression and membrane localization of GLUT3. With respect to metabolic parameters, chronic TCAP-1 application led to increased intracellular [ATP] with decreased intracellular [lactate], both in a dose-dependent manner, but did not alter tumourgenic glycolytic enzyme expression or mitochondrially associated apoptotic protein expression. Contrastingly, acute TCAP-1 led to decreased intracellular [ATP]. Indicative of increased cellular ATP production and physiological energy expenditure, TCAP-1 reduced serum insulin levels and subcutaneous adipocyte size in vivo. Glucose Apoptosis Stress Neuroendocrinology Protection Metabolism ATP Lactate GLUT Adipose Leptin Insulin Glycolysis Oxidation TCAP-1 TCAP Teneurin C-terminal Associated Peptide 0379 0719 0317
79	Modulation of Hypothalamic-pituitary-Adrenal Axis Parameters by Teneurin C-terminal Associated Peptide (TCAP)-1 De Almeida, Reuben Ricardo Joaquim 21 November 2012 (has links) Teneurin C-terminal associated peptides (TCAP) are a family of bioactive peptides found on the terminal exon of the four teneurin genes. TCAP-1 is found within brain regions that modulate the activity of corticotropin-releasing factor (CRF), which is the principal neuropeptide regulator of the hypothalamic-pituitary-adrenal (HPA) axis. TCAP-1 has suppressive effects on CRF-induced anxiety behaviours in rats. However, previous studies determined that TCAP-1 does not act directly on the CRF receptors (CRFR). Thus, I postulate that TCAP-1 may act centrally to modify elements of the HPA axis. Using an immortalized mouse hippocampal cell line, I tested the hypothesis that TCAP acts either downstream of CRFR activation, or on the regulation of the glucocorticoid receptors (GCR), which modulate CRF actions. These studies indicate that TCAP-1 represents a novel peptide in the regulation of stress related systems, which acts independently of either CRF-, or glucocorticoid- mediated signal transduction and transcription. teneurin c-terminal associated peptides corticotropin-releasing factor glucocorticoid receptor mineralocorticoid receptor hippocampus neuroendocrinology hypothalamic-pituitary-adrenal axis stress 0317 0379 0307
80	A Novel Pathway for Enhanced Metabolic Capacities Underlies the Neuroprotective Actions of Teneurin C-Terminal Associated Peptide (TCAP)-1 Xu, Mei 27 November 2012 (has links) Teneurin C-terminal Associated Peptide (TCAP)-1 is postulated to play a critical role in cellular defense mechanisms as it is highly neuroprotective against alkalotic and hypoxic stress. Optimization of metabolic pathways is recognized as an essential survival tactic by alleviating energy deficits and meeting the demands to cope with the stressors. The aim of this research was to delineate the mechanism through which TCAP-1 confers protection. My findings show that TCAP-1 increases the overall expression of GLUT1 and enhances overall expression and membrane localization of GLUT3. With respect to metabolic parameters, chronic TCAP-1 application led to increased intracellular [ATP] with decreased intracellular [lactate], both in a dose-dependent manner, but did not alter tumourgenic glycolytic enzyme expression or mitochondrially associated apoptotic protein expression. Contrastingly, acute TCAP-1 led to decreased intracellular [ATP]. Indicative of increased cellular ATP production and physiological energy expenditure, TCAP-1 reduced serum insulin levels and subcutaneous adipocyte size in vivo. Glucose Apoptosis Stress Neuroendocrinology Protection Metabolism ATP Lactate GLUT Adipose Leptin Insulin Glycolysis Oxidation TCAP-1 TCAP Teneurin C-terminal Associated Peptide 0379 0719 0317

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